CN213480807U - A quick drying device for weaving area - Google Patents

Abstract

A quick drying device for textile belts comprises a drying box, a hot air pipe and a rotary drum. The drying box is provided with a penetrating port and a penetrating port for the textile belt to penetrate through, the penetrating port and the penetrating port are arranged on two opposite sides of the drying box, and the hot air pipe penetrates through the drying box from the side wall to the inside of the drying box. The stoving incasement portion is located to the rotary drum, and the rotary drum is the cake form, and the rotary drum has the inner chamber that is the cake form, and the rotary drum rotationally installs in the tip of hot gas pipe, and hot gas pipe's tip runs through to the inner chamber of rotary drum and communicates with the inner chamber, and hot gas pipe is sealed with the rotary drum rotation. The end parts of the rotary drum, the inner cavity and the hot air pipe are coaxially arranged. The arc-shaped wall of the rotary drum is provided with an air injection hole, and the central axis of the air injection hole is tangent to the inner cavity, so that the rotary drum is driven to rotate when hot air is injected into the drying phase from the air injection hole. The drying device is simple in structure, low in cost, easy to manufacture and use, good in drying effect, high in drying efficiency and suitable for small and micro enterprises and traditional textile enterprises.

Description

A quick drying device for weaving area

Technical Field

The utility model relates to a textile production field particularly, relates to a quick drying device for weaving area.

Background

In the actual production process, modification treatments such as corrosion prevention, flexibility improvement, wear resistance and the like are often needed to be carried out on the textile belt, and the treatment processes are mostly carried out by utilizing a modifier. Drying is required after the modifier is impregnated. The existing drying equipment can be divided into two types, the first type has good drying effect, but has large volume and higher manufacturing cost, and is suitable for the production of large-batch and special textiles. The second type has smaller volume and low cost, is suitable for small and micro enterprises and traditional textile enterprises, but has poorer drying effect and lower drying efficiency.

In view of this, the present application is specifically made.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a quick drying device for weaving area, its simple structure, low cost easily makes and uses, and drying effect is better, and drying efficiency is also higher, is fit for little enterprise and traditional textile enterprise and uses.

The embodiment of the utility model is realized like this:

a quick drying apparatus for textile tapes comprising: stoving case, steam pipe and rotary drum. The drying box is provided with a penetrating port and a penetrating port for the textile belt to penetrate through, the penetrating port and the penetrating port are arranged on two opposite sides of the drying box, and the hot air pipe penetrates through the drying box from the side wall to the inside of the drying box.

The stoving incasement portion is located to the rotary drum, and the rotary drum is the cake form, and the rotary drum has the inner chamber that is the cake form, and the rotary drum rotationally installs in the tip of hot gas pipe, and hot gas pipe's tip runs through to the inner chamber of rotary drum and communicates with the inner chamber, and hot gas pipe is sealed with the rotary drum rotation. The end parts of the rotary drum, the inner cavity and the hot air pipe are coaxially arranged. The arc-shaped wall of the rotary drum is provided with an air injection hole, and the central axis of the air injection hole is tangent to the inner cavity, so that the rotary drum is driven to rotate when hot air is injected into the drying phase from the air injection hole.

Further, the tip fixedly connected with of steam pipe is the reposition of redundant personnel storehouse of cake form, and the reposition of redundant personnel storehouse is seted up a plurality of shunting holes that communicate with the steam pipe, and a plurality of shunting holes set up along the even interval of circumference in reposition of redundant personnel storehouse. The end parts of the shunting bin and the hot air pipe are coaxially arranged, and the shunting bin and the side wall of the rotary drum are rotationally sealed.

Furthermore, the rotary drum is also provided with a flow deflector, and the flow deflector is arranged in the inner cavity and is fixedly connected to the inner wall of the rotary drum. The flow deflectors are arranged along the radial direction of the inner cavity, and the flow deflectors are evenly distributed at intervals along the circumferential direction of the inner cavity. The included angle between the flow deflector and the inner wall of the rotary drum is 30-60 degrees, so that hot air blown out from the flow splitting holes can push the rotary drum to rotate when blowing to the flow deflector, and the pushing direction is the same as that of the air jetting holes.

Further, the included angle between the guide vane and the inner wall of the rotary drum is 45 degrees.

Furthermore, the rotating axis of the rotating drum is perpendicular to the side wall of the drying box. The exhaust pipe of the drying box is arranged at the top of the drying box, the inlet end of the exhaust pipe is also covered with a flow guide cover, the air inlets of the flow guide cover are arranged on two sides of the flow guide cover, and the opening direction of the air inlets of the flow guide cover is arranged along the width direction of the drying box.

Furthermore, the lateral wall of one side at the position of the penetrating port of the drying box is covered with a first cover body, the first cover body and the lateral wall of the drying box enclose a first cavity, and the first cover body is provided with an outlet for the textile belt to penetrate out. The bottom of the first cover body is provided with an air blowing pipe, and the top of the first cover body is provided with a first exhaust pipe.

Furthermore, a shunt cover is covered at the opening of the air blowing pipe, and honeycomb holes are formed in the top of the shunt cover.

Further, the lateral wall of one side at the penetrating port place of stoving case still covers and is equipped with the second cover body, and the second cover body encloses into the second cavity with the lateral wall of stoving case, and the second cover body is seted up the entry that supplies the weaving area to penetrate. And a second exhaust pipe is arranged at the top of the second cover body.

The embodiment of the utility model provides a beneficial effect is:

the embodiment of the utility model provides a quick drying device for weaving area treats dry weaving area and gets into the stoving case from penetrating the mouth in the use, and the steam pipe lasts carries dry steam to the rotary drum, and after dry steam got into the inner chamber of rotary drum, the fumarole blowout through the rotary drum. The hot air supply speed of the hot air pipe is controlled, so that the hot air flow at the air injection hole is always in an injection state. Therefore, the hot air flow is continuously sprayed out from the air injection holes, the reaction force of the hot air flow pushes the rotary drum to rotate, and in the state, the spraying direction of the hot air flow of the air injection holes is continuously changed along with the rotation of the rotary drum, so that the whole drying box is promoted to be close to uniform temperature, and the drying effect is prevented from being influenced by an obvious low-temperature area in the drying box. Simultaneously, the rotation of rotary drum drives the change of hot air current injection direction, can also stir the air current in the whole stoving case, promotes the humid air current and fully discharges from the exhaust tube, avoids the humid air current overstock and influences follow-up drying effect, guarantees that drying effect lasts stably.

Generally, the embodiment of the utility model provides a quick drying device for weaving area simple structure, low cost easily makes and uses, and drying effect is better, and drying efficiency is also higher, is fit for little enterprise and traditional textile enterprise and uses.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural view of a rapid drying device provided in an embodiment of the present invention;

FIG. 2 is a schematic view of the internal structure of the rapid drying apparatus shown in FIG. 1;

FIG. 3 is a schematic view of the assembly of the drum of the quick drying apparatus of FIG. 2;

FIG. 4 is a schematic view of the internal structure of the drum in FIG. 3 (on the side where the diversion chamber is located);

fig. 5 is a schematic view of the internal structure of the drum in fig. 3 (on the side of the guide vane).

Icon: a rapid drying device 1000; a drying box 100; an exhaust tube 110; a pod 120; an air inlet 121; a hot gas pipe 200; a diversion bin 210; a shunt hole 211; a rotating drum 300; an inner cavity 310; a gas injection hole 320; a guide vane 330; positioning posts 340; a first cover 410; a first chamber 420; an air blowing pipe 430; a shunt shield 440; a first exhaust pipe 450; a second cover 510; a second chamber 520; a second exhaust pipe 530; textile belt 2000.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

The terms "first," "second," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Examples

Referring to fig. 1 to 4, the present embodiment provides a quick drying device 1000 for a textile belt 2000, the quick drying device 1000 includes: a drying box 100, a hot air pipe 200 and a drum 300.

The drying box 100 has an inlet and an outlet through which the textile tape 2000 passes, the inlet and the outlet being provided at opposite sides of the drying box 100, and the hot air pipe 200 passing through the drying box 100 from a sidewall thereof to the inside thereof.

Inside stoving case 100 was located to rotary drum 300, rotary drum 300 was the cake form, and rotary drum 300 has the inner chamber 310 that is the cake form, and rotary drum 300 rotationally installs in the tip of steam pipe 200, and the tip of steam pipe 200 runs through to the inner chamber 310 of rotary drum 300 and communicates with inner chamber 310, and steam pipe 200 rotates with rotary drum 300 and seals. The drum 300, the inner chamber 310 and the end of the hot gas pipe 200 are coaxially disposed. The exhaust duct 110 of the drying box 100 is provided at the top thereof.

The arc-shaped wall of the rotating drum 300 is provided with gas injection holes 320, and the central axes of the gas injection holes 320 are tangent to the inner cavity 310, so that the rotating drum 300 is driven to rotate when hot gas flow is injected into the drying phase from the gas injection holes 320.

In use, the textile strip 2000 to be dried enters the drying box 100 from the penetration port, the hot air pipe 200 continuously conveys hot dry air to the rotary drum 300, and the hot dry air enters the inner cavity 310 of the rotary drum 300 and then is sprayed out through the air spraying holes 320 of the rotary drum 300. The hot gas supply speed of the hot gas pipe 200 is controlled so that the hot gas flow at the gas injection hole 320 is always in the injection state. In this way, as the hot air flow is continuously ejected from the air ejection holes 320, the reaction force of the hot air flow pushes the rotary drum 300 to rotate, and in this state, the ejection direction of the hot air flow of the air ejection holes 320 is continuously changed along with the rotation of the rotary drum 300, so that the approach to the uniform temperature in the whole drying box 100 can be promoted, and the drying effect is prevented from being influenced by the existence of an obvious low temperature region in the drying box 100. Meanwhile, the rotation of the rotary drum 300 drives the change of the hot air flow injection direction, and the air flow in the whole drying box 100 can be stirred, so that the wet air flow is promoted to be fully discharged from the exhaust pipe 110, the influence of the accumulation of the wet air flow on the subsequent drying effect is avoided, and the continuous and stable drying effect is ensured.

Generally, the quick drying device 1000 is simple in structure, low in cost, easy to manufacture and use, good in drying effect, high in drying efficiency and suitable for small and micro enterprises and traditional textile enterprises.

Specifically, in the present embodiment, the drying box 100 is rectangular, the hot air pipe 200 is disposed perpendicular to the side wall of the drying box 100, the rotation axis of the drum 300 is also perpendicular to the side wall of the drying box 100, and the two sets of the inlet and the outlet of the drying box 100 are disposed at the upper and lower sides of the drum 300, so that the two sets of the textile tapes 2000 passing through the drying box 100 are respectively disposed above and below the drum 300. In the drying process, along with the rotation of rotary drum 300, the hot gas flow of following fumarole 320 blowout can carry out the injection formula hot blow drying to two sets of textile tapes 2000 simultaneously to stir the gas of stoving case 100 top and bottom simultaneously, avoid moisture overstock, improve the degree of consistency of temperature, promote the humid gas flow and discharge. The number of the air injection holes 320 is four, and the four air injection holes 320 are uniformly arranged along the circumferential direction of the rotary drum 300 at intervals.

Further, the end portion of the hot air pipe 200 is fixedly connected with a shunting bin 210 in a round cake shape, the shunting bin 210 is provided with a plurality of shunting holes 211 communicated with the hot air pipe 200, and the plurality of shunting holes 211 are uniformly arranged along the circumferential direction of the shunting bin 210 at intervals. The diversion bin 210 is coaxially arranged with the end part of the hot air pipe 200, the diversion bin 210 is rotationally sealed with the side wall of the rotary drum 300, the side wall of the diversion bin 210, provided with the diversion hole 211, extends into the inner cavity 310 of the rotary drum 300, and the diversion hole 211 communicates the hot air pipe 200 with the inner cavity 310 of the rotary drum 300.

The distribution bin 210 can promote the hot air flow to be rapidly dispersed in the rotary drum 300 and can be ejected from the air ejection holes 320 more uniformly, so that the rotary drum 300 rotates more stably.

Referring to fig. 5, the rotating cylinder 300 further has a flow deflector 330, and the flow deflector 330 is disposed in the inner cavity 310 and fixedly connected to the inner wall of the rotating cylinder 300. The guide vanes 330 are arranged in the radial direction of the inner cavity 310, and a plurality of guide vanes 330 are uniformly spaced in the circumferential direction of the inner cavity 310. The included angle between the flow deflector 330 and the inner wall of the rotating drum 300 is 30-60 degrees, so that hot air blown out from the flow splitting holes 211 can push the rotating drum 300 to rotate when being blown to the flow deflector 330, and the pushing direction is the same as that of the air injection holes 320. In this embodiment, the angle between the guide vane 330 and the inner wall of the drum 300 is 45 °.

Through this design, water conservancy diversion piece 330 can help letting the hot gas flow divide in rotary drum 300 and scatter, can follow each fumarole 320 blowout more evenly, avoids the air current too concentrated and leads to rotary drum 300 to rotate unstably. On the other hand, the guide vanes 330 are matched with the diversion holes 211, so that more sufficient rotating power can be provided for the rotary drum 300, and the drying effect is further improved.

One end of each flow deflector 330 close to the rotation axis of the rotating drum 300 is connected to a positioning column 340, the positioning column 340 is cylindrical, and the central axis of the positioning column 340 is coincident with the rotation axis of the rotating drum 300. The positioning column 340 can help to improve the stability of the baffle 330, and can avoid the occurrence of turbulent flow at a position close to the rotation axis of the rotating drum 300, thereby improving the smoothness of hot air flow ejection and improving the stability of the rotating drum 300.

Furthermore, the inlet end of the exhaust pipe 110 is covered with a flow guiding cover 120, the air inlets 121 of the flow guiding cover 120 are disposed on both sides of the flow guiding cover, and the opening direction of the air inlets 121 of the flow guiding cover 120 is set along the width direction of the drying box 100. By such arrangement, the hot air ejected from the air injection holes 320 can be prevented from being directly exhausted from the extraction pipe 110, and the utilization rate of the drying hot air flow is improved.

The side wall of the drying box 100 at the side where the through-out opening is located is covered with a first cover 410, the first cover 410 and the side wall of the drying box 100 enclose a first chamber 420, and the first cover 410 is provided with an outlet through which the textile belt 2000 penetrates. The first cover 410 is provided with an air blowing pipe 430 at the bottom and a first exhaust pipe 450 at the top. The mouth of the blowing pipe 430 is covered with a shunt cover 440, and the top of the shunt cover 440 is provided with honeycomb holes. Through this design, the weaving area 2000 that just has just left drying box 100 through drying box 100 drying gets into first cavity 420 immediately after, and gas blow pipe 430 is arranged in blowing in normal atmospheric temperature dry air to first cavity 420, promotes weaving area 2000 cooling, and quickening probably stops the moisture loss that takes 2000 around in weaving and goes out, guarantees that weaving area 2000 is by abundant drying and rapid cooling, makes weaving area 2000 leave first cavity 420 and can normally accomodate, improves production efficiency.

The side wall of the penetrating opening of the drying box 100 is covered with a second cover 510, the second cover 510 and the side wall of the drying box 100 enclose a second chamber 520, and the second cover 510 is provided with an inlet for the textile belt 2000 to penetrate. The second exhaust pipe 530 is disposed at the top of the second housing 510. The second chamber 520 is provided to utilize the hot air flow overflowed from the inlet of the drying box 100, to preheat the textile belt 2000 entering the drying box 100, and to improve the drying effect in the drying box 100.

To sum up, quick drying device 1000 simple structure, low cost, easily preparation and use, drying effect is better, and drying efficiency is also higher, is fit for little enterprise and traditional textile enterprise and uses.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A quick drying device for textile belt, characterized by comprising: a drying box, a hot air pipe and a rotary drum; the drying box is provided with a penetration port and a penetration port through which the textile belt penetrates, the penetration port and the penetration port are arranged on two opposite sides of the drying box, and the hot air pipe penetrates into the drying box from the side wall of the drying box;

the rotary drum is arranged in the drying box, is in a cake shape, is provided with an inner cavity in a cake shape, is rotatably arranged at the end part of the hot air pipe, penetrates through the inner cavity of the rotary drum and is communicated with the inner cavity, and is in rotary sealing with the rotary drum; the end parts of the rotary drum, the inner cavity and the hot air pipe are coaxially arranged; the arc-shaped wall of the rotary drum is provided with an air injection hole, and the central axis of the air injection hole is tangent to the inner cavity, so that the rotary drum is driven to rotate when hot air flow is injected into the drying phase from the air injection hole.

2. The quick drying device according to claim 1, wherein a cake-shaped shunt bin is fixedly connected to an end of the hot air pipe, the shunt bin is provided with a plurality of shunt holes communicated with the hot air pipe, and the shunt holes are uniformly arranged at intervals along the circumferential direction of the shunt bin; the shunting bin and the end part of the hot air pipe are coaxially arranged, and the shunting bin and the side wall of the rotary drum are rotationally sealed.

3. The quick drying device of claim 2, wherein the rotating drum further comprises a flow deflector, the flow deflector is disposed in the inner cavity and fixedly connected to an inner wall of the rotating drum; the flow deflectors are arranged along the radial direction of the inner cavity, and a plurality of flow deflectors are uniformly distributed at intervals along the circumferential direction of the inner cavity; the included angle between the flow deflector and the inner wall of the rotary drum is 30-60 degrees, so that hot air blown out of the flow splitting holes can push the rotary drum to rotate when being blown to the flow deflector, and the pushing direction is the same as that of the air jet holes.

4. The quick drying apparatus of claim 3, wherein the angle between the deflector and the inner wall of the drum is 45 °.

5. A rapid drying apparatus according to claim 3, characterized in that the axis of rotation of the drum is arranged perpendicular to the side wall of the drying box; the air exhaust pipe of the drying box is arranged at the top of the drying box, the inlet end of the air exhaust pipe is further covered with a flow guide cover, the air inlet of the flow guide cover is arranged on two sides of the flow guide cover, and the opening direction of the air inlet of the flow guide cover is arranged along the width direction of the drying box.

6. The quick drying device according to claim 3, characterized in that a first cover body is further covered on the side wall of the drying box where the through-out opening is located, a first chamber is enclosed by the first cover body and the side wall of the drying box, and the first cover body is provided with an outlet through which the textile belt passes; the bottom of the first cover body is provided with an air blowing pipe, and the top of the first cover body is provided with a first exhaust pipe.

7. The quick drying device as claimed in claim 6, wherein the mouth of the blowing pipe is covered with a shunt cover, and the top of the shunt cover is provided with honeycomb holes.

8. The quick drying device according to claim 6, characterized in that a second cover body is further covered on the side wall of the drying box where the penetrating port is located, a second chamber is defined by the second cover body and the side wall of the drying box, and the second cover body is provided with an inlet for the textile belt to penetrate; and a second exhaust pipe is arranged at the top of the second cover body.

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